Search Results - "Yuan, Yuanshuang"

Plant nitrogen acquisition from inorganic and organic sources via root and mycelia pathways in ectomycorrhizal alpine forests by Zhang, Ziliang, Yuan, Yuanshuang, Liu, Qing, Yin, Huajun

“…Ectomycorrhizal (ECM) fungi associated with plant roots play important roles in facilitating plant nutrient uptake. Ectomycorrhizal trees obtain soil nitrogen…”
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Effect of N addition on root exudation and associated microbial N transformation under Sibiraea angustata in an alpine shrubland by He, Wei, Yuan, Yuanshuang, Zhang, Ziliang, Xiao, Juan, Liu, Qing, Laiho, Raija, Yin, Huajun

“…Background and aim Root exudates are generally known to play an important role in ecosystem carbon (C) and nitrogen (N) cycling. We aimed to quantify the…”
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Nitrogen addition alters the relative importance of roots and mycorrhizal hyphae in regulating soil organic carbon accumulation in a karst forest by Yuan, Yuanshuang, Yin, Yicong, Adamczyk, Bartosz, Liang, Di, Gu, Dapeng, Xia, Guowei, Zhang, Jianli, Zhang, Ziliang

“…Plant belowground carbon (C) inputs from roots and associated mycorrhizal hyphae are increasingly recognized as critical drivers impacting soil organic C (SOC)…”
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Facilitated destabilization of physicochemically protected soil organic matter by root-derived low-molecular-weight organic acids by Yuan, Yuanshuang, Zhang, Ziliang, Chen, Lijuan, Yang, Zhen, Liu, Jing

“…Purpose Root-derived low-molecular-weight organic acids (LMWOAs) can impact the decomposition of soil organic matter (SOM) after being released into soils…”
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Impacts of oxalic acid and glucose additions on N transformation in microcosms via artificial roots by Yuan, Yuanshuang, Zhao, Wenqiang, Zhang, Ziliang, Xiao, Juan, Li, Dandan, Liu, Qing, Yin, Huajun

“…Root exudates can accelerate nitrogen (N) cycling by stimulating the decomposition of soil organic matter (SOM); however, it remains unclear how inputs of…”
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Seasonal variations in the soil amino acid pool and flux following the conversion of a natural forest to a pine plantation on the eastern Tibetan Plateau, China by Zhang, Ziliang, Yuan, Yuanshuang, Zhao, Wenqiang, He, Heliang, Li, Dandan, He, Wei, Liu, Qing, Yin, Huajun

“…Although the importance of amino acids to plant nitrogen (N) nutrition in most terrestrial ecosystems is being increasingly recognized, the availability and…”
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Rejoinder to Jones et al.’s comments on: : “Plant nitrogen acquisition from inorganic and organic sources via root and mycelia pathways in ectomycorrhizal alpine forests.” Soil Biol. Biochem. 136: 107517 by Zhang, Ziliang, Wang, Qitong, Yuan, Yuanshuang, Liu, Qing, Yin, Huajun

“…•We had a broad separation of N uptake by the whole ECM root system into the ‘root pathway’ and the ‘mycelia pathway’.•The two pathways were separated based on…”
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Mycelium- and root-derived C inputs differ in their impacts on soil organic C pools and decomposition in forests by Zhang, Ziliang, Xiao, Juan, Yuan, Yuanshuang, Zhao, Chunzhang, Liu, Qing, Yin, Huajun

“…While multiple lines of evidence suggests that root carbon (C) can significantly impact the soil organic C (SOC) pool and subsequent C cycles via rhizosphere…”
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Mycelia‐derived C contributes more to nitrogen cycling than root‐derived C in ectomycorrhizal alpine forests by Zhang, Ziliang, Phillips, Richard P., Zhao, Wenqiang, Yuan, Yuanshuang, Liu, Qing, Yin, Huajun, Field, Katie

“…Plant roots and their associated microbial symbionts impact carbon (C) and nutrient cycling in ecosystems, but estimates of the relative contributions of root‐…”
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Exudate components exert different influences on microbially mediated C losses in simulated rhizosphere soils of a spruce plantation by Yuan, Yuanshuang, Zhao, Wenqiang, Xiao, Juan, Zhang, Ziliang, Qiao, Mingfeng, Liu, Qing, Yin, Huajun

“…Background and aims Root exudates play a vital role in driving ecosystem carbon (C) cycling; however, few studies have examined the degree to which a specific…”
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The formation of protected SOM facilitated by labile C input via artificial roots by Yuan, Yuanshuang, Zhang, Ziliang, Chen, Lijuan, Yang, Cheng

“…Plant root-derived labile carbon (C) delivered to soils can regulate the dynamics and turnover of soil organic matter (SOM); however, it remains largely…”
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Correction to: Facilitated destabilization of physicochemically protected soil organic matter by root-derived low-molecular-weight organic acids by Yuan, Yuanshuang, Zhang, Ziliang, Chen, Lijuan, Yang, Zhen, Liu, Jing

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Exudate components mediate soil C dynamic through different priming mechanisms in forest soils by Wang, Qitong, Yuan, Yuanshuang, Zhang, Ziliang, Liu, Dongyan, Xiao, Juan, Yin, Huajun

“…While accumulating evidence suggests that root exudate inputs can significantly affect soil organic carbon (SOC) dynamic and stability through rhizosphere…”
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Plant roots and associated mycelia enhance soil N transformation through different mechanisms in a karst plantation by Yuan, Yuanshuang, Gu, Dapeng, Huang, Zexi, Zhang, Jianli, Xia, Guowei, Chen, Lijuan

“…Purpose Plant roots and associated mycelia play a crucial role in soil nitrogen (N) cycling. However, the underlying mechanisms by which roots and mycelia…”
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